Genetic integrity is still maintained in natural populations of the indigenous wild apple species Malus sylvestris (Mill.) in Saxony as demonstrated with nuclear SSR and chloroplast DNA markers

Genetic integrity is still maintained in natural populations of the indigenous wild apple species Malus sylvestris (Mill.) in Saxony as demonstrated with nuclear SSR and chloroplast DNA markers

Abstract Malus sylvestris (Mill.) is the only indigenous wild apple species in Central Europe. Agriculture, forestry, and urbanization increasingly endanger Malus sylvestris natural habitats. In addition, the risks of cross‐hybridization associated with increase in the cultivation of the domesticate...

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Main Authors: Stefanie Reim, Frank Lochschmidt, Anke Proft, Monika Höfer
Format: Article
Language:English
Published: Wiley 2020-10-01
Series:Ecology and Evolution
Subjects:
chloroplast DNA
European wild apple
haplotypes
hybridization
microsatellites
species delimitation
Online Access:https://doi.org/10.1002/ece3.6818
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spelling doaj-9666195dc16245e7a5c71758aa23b94d2021-04-02T19:07:59ZengWileyEcology and Evolution2045-77582020-10-011020117981180910.1002/ece3.6818Genetic integrity is still maintained in natural populations of the indigenous wild apple species Malus sylvestris (Mill.) in Saxony as demonstrated with nuclear SSR and chloroplast DNA markersStefanie Reim0Frank Lochschmidt1Anke Proft2Monika Höfer3Federal Research Centre for Cultivated Plants Institute for Breeding Research on Fruit Crops Julius Kühn Institute (JKI) Dresden GermanyGreen League Osterzgebirge e.V. Dippoldiswalde GermanyGreen League Osterzgebirge e.V. Dippoldiswalde GermanyFederal Research Centre for Cultivated Plants Institute for Breeding Research on Fruit Crops Julius Kühn Institute (JKI) Dresden GermanyAbstract Malus sylvestris (Mill.) is the only indigenous wild apple species in Central Europe. Agriculture, forestry, and urbanization increasingly endanger Malus sylvestris natural habitats. In addition, the risks of cross‐hybridization associated with increase in the cultivation of the domesticated apple Malus × domestica (Borkh.) threaten the genetic integrity of M. sylvestris. The present study investigated the number of hybrids, genetic diversity, and genetic structure of 292 putative M. sylvestris that originate from five different natural M. sylvestris populations in Saxony, Germany. All samples were genetically analyzed using nine nuclear microsatellite markers (ncSSR) and four maternally inherited chloroplast markers (cpDNA) along with 56 apple cultivars commonly cultivated in Saxony. Eighty‐seven percent of the wild apple accessions were identified as pure M. sylvestris. The cpDNA analysis showed six private haplotypes for M. sylvestris, whereas three haplotypes were present in M. sylvestris and M. × domestica. The analysis of molecular variance (AMOVA) resulted in a moderate (ncSSR) and great (cpDNA) variation among pure M. sylvestris and M. × domestica individuals indicating a low gene flow between both species. The genetic diversity within the pure M. sylvestris populations was high with a weak genetic structure between the M. sylvestris populations indicating an unrestricted genetic exchange between these M. sylvestris populations. The clear distinguishing of M. sylvestris and M. ×domestica confirms our expectation of the existence of pure M. sylvestris accessions in this area and supports the argument for the implementation of preservation measures to protect the M. sylvestris populations in Saxony.https://doi.org/10.1002/ece3.6818chloroplast DNAEuropean wild applehaplotypeshybridizationmicrosatellitesspecies delimitation
collection DOAJ
language English
format Article
sources DOAJ
author Stefanie Reim
Frank Lochschmidt
Anke Proft
Monika Höfer
spellingShingle Stefanie Reim
Frank Lochschmidt
Anke Proft
Monika Höfer
Genetic integrity is still maintained in natural populations of the indigenous wild apple species Malus sylvestris (Mill.) in Saxony as demonstrated with nuclear SSR and chloroplast DNA markers
Ecology and Evolution
chloroplast DNA
European wild apple
haplotypes
hybridization
microsatellites
species delimitation
author_facet Stefanie Reim
Frank Lochschmidt
Anke Proft
Monika Höfer
author_sort Stefanie Reim
title Genetic integrity is still maintained in natural populations of the indigenous wild apple species Malus sylvestris (Mill.) in Saxony as demonstrated with nuclear SSR and chloroplast DNA markers
title_short Genetic integrity is still maintained in natural populations of the indigenous wild apple species Malus sylvestris (Mill.) in Saxony as demonstrated with nuclear SSR and chloroplast DNA markers
title_full Genetic integrity is still maintained in natural populations of the indigenous wild apple species Malus sylvestris (Mill.) in Saxony as demonstrated with nuclear SSR and chloroplast DNA markers
title_fullStr Genetic integrity is still maintained in natural populations of the indigenous wild apple species Malus sylvestris (Mill.) in Saxony as demonstrated with nuclear SSR and chloroplast DNA markers
title_full_unstemmed Genetic integrity is still maintained in natural populations of the indigenous wild apple species Malus sylvestris (Mill.) in Saxony as demonstrated with nuclear SSR and chloroplast DNA markers
title_sort genetic integrity is still maintained in natural populations of the indigenous wild apple species malus sylvestris (mill.) in saxony as demonstrated with nuclear ssr and chloroplast dna markers
publisher Wiley
series Ecology and Evolution
issn 2045-7758
publishDate 2020-10-01
description Abstract Malus sylvestris (Mill.) is the only indigenous wild apple species in Central Europe. Agriculture, forestry, and urbanization increasingly endanger Malus sylvestris natural habitats. In addition, the risks of cross‐hybridization associated with increase in the cultivation of the domesticated apple Malus × domestica (Borkh.) threaten the genetic integrity of M. sylvestris. The present study investigated the number of hybrids, genetic diversity, and genetic structure of 292 putative M. sylvestris that originate from five different natural M. sylvestris populations in Saxony, Germany. All samples were genetically analyzed using nine nuclear microsatellite markers (ncSSR) and four maternally inherited chloroplast markers (cpDNA) along with 56 apple cultivars commonly cultivated in Saxony. Eighty‐seven percent of the wild apple accessions were identified as pure M. sylvestris. The cpDNA analysis showed six private haplotypes for M. sylvestris, whereas three haplotypes were present in M. sylvestris and M. × domestica. The analysis of molecular variance (AMOVA) resulted in a moderate (ncSSR) and great (cpDNA) variation among pure M. sylvestris and M. × domestica individuals indicating a low gene flow between both species. The genetic diversity within the pure M. sylvestris populations was high with a weak genetic structure between the M. sylvestris populations indicating an unrestricted genetic exchange between these M. sylvestris populations. The clear distinguishing of M. sylvestris and M. ×domestica confirms our expectation of the existence of pure M. sylvestris accessions in this area and supports the argument for the implementation of preservation measures to protect the M. sylvestris populations in Saxony.
topic chloroplast DNA
European wild apple
haplotypes
hybridization
microsatellites
species delimitation
url https://doi.org/10.1002/ece3.6818
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AT ankeproft geneticintegrityisstillmaintainedinnaturalpopulationsoftheindigenouswildapplespeciesmalussylvestrismillinsaxonyasdemonstratedwithnuclearssrandchloroplastdnamarkers
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